# This testcase is part of GDB, the GNU debugger. # Copyright 2004-2020 Free Software Foundation, Inc. # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . # Check that GDB can support multiple watchpoints across threads. # This test verifies that a watchpoint is detected in the proper thread # so the test is only meaningful on a system with hardware watchpoints. if {[skip_hw_watchpoint_multi_tests]} { return 0 } proc target_no_stopped_data { } { return [istarget s390*-*-*] } standard_testfile if {[gdb_compile_pthreads "${srcdir}/${subdir}/${srcfile}" "${binfile}" executable debug] != "" } { return -1 } gdb_exit gdb_start gdb_reinitialize_dir $srcdir/$subdir gdb_load ${binfile} gdb_test_no_output "set can-use-hw-watchpoints 1" "" # # Run to `main' where we begin our tests. # if ![runto_main] then { fail "can't run to main" return 0 } set args_0 0 set args_1 0 # Watch values that will be modified by distinct threads. gdb_test "watch args\[0\]" "Hardware watchpoint 2: args\\\[0\\\]" gdb_test "watch args\[1\]" "Hardware watchpoint 3: args\\\[1\\\]" set hwwp_2_enabled 1 set hwwp_3_enabled 1 set init_line [gdb_get_line_number "Init value"] set inc_line [gdb_get_line_number "Loop increment"] set main_loc "main \\\(\\\) at .*watchthreads.c:$init_line" set thread0_loc "thread_function \\\(arg=0x0\\\) at .*watchthreads.c:$inc_line" set thread1_loc "thread_function \\\(arg=0x1\\\) at .*watchthreads.c:$inc_line" # Loop and continue to allow both watchpoints to be triggered. for {set i 0} {$i < 30} {incr i} { set test_flag_0 0 set test_flag_1 0 set test_flag 0 gdb_test_multiple "continue" "threaded watch loop" { -re "(.*Hardware watchpoint.*)$gdb_prompt $" { # At least one hardware watchpoint was hit. Check if both were. set string $expect_out(1,string) if [regexp "Hardware watchpoint 2: args\\\[0\\\]\[^\r\]*\r\[^\r\]*\r\[^\r\]*Old value = $args_0\[^\r\]*\r\[^\r\]*New value = [expr $args_0+1]\r" $string] { incr args_0 incr test_flag_0 } if [regexp "Hardware watchpoint 3: args\\\[1\\\]\[^\r\]*\r\[^\r\]*\r\[^\r\]*Old value = $args_1\[^\r\]*\r\[^\r\]*New value = [expr $args_1+1]\r" $string] { incr args_1 incr test_flag_1 } set expected_loc "bogus location" if { $test_flag_0 == 1 && $test_flag_1 == 0 && $args_0 == 1 } { set expected_loc $main_loc } elseif { $test_flag_0 == 0 && $test_flag_1 == 1 && $args_1 == 1 } { set expected_loc $main_loc } elseif { $test_flag_0 == 1 && $test_flag_1 == 0 } { set expected_loc $thread0_loc } elseif { $test_flag_0 == 0 && $test_flag_1 == 1 } { set expected_loc $thread1_loc } elseif { $test_flag_0 + $test_flag_1 == 2 } { # On S/390, or any other system which can not report the # stopped data address, it is OK to report two watchpoints # at once in this test. Make sure the reported location # corresponds to at least one of the watchpoints (and not, # e.g., __nptl_create_event). On other systems, we should # report the two watchpoints serially. if { [target_no_stopped_data] } { set expected_loc "($main_loc|$thread0_loc|$thread1_loc)" } } if [ regexp "$expected_loc" $string ] { set test_flag 1 } else { fail "threaded watch loop" } # If one of the watchpoints is disabled, we'd better not stop there. if { !$hwwp_2_enabled && $test_flag_0 } { fail "disabled hw watchpoint 2 triggered" } if { !$hwwp_3_enabled && $test_flag_1 } { fail "disabled hw watchpoint 3 triggered" } # If we get to 10 in one of the watched locations disable it so we # see some of the other watched location. # 10 is chosen so we're guaranteed to come through here. if { $hwwp_2_enabled && $hwwp_3_enabled } { if { $args_0 >= 10 && $hwwp_2_enabled } { gdb_test_no_output "disable 2" "disable first watchpoint at 10" set hwwp_2_enabled 0 } elseif { $args_1 >= 10 && $hwwp_3_enabled } { gdb_test_no_output "disable 3" "disable first watchpoint at 10" set hwwp_3_enabled 0 } } } } # If we fail above, don't bother continuing loop if { $test_flag == 0 } { set i 30 } } # Print success message if loop succeeded. if { $test_flag == 1 } { pass "threaded watch loop" } # Verify that we hit first watchpoint in main thread. set message "first watchpoint on args\[0\] hit" if { $args_0 > 0 } { pass $message } else { fail $message } # Verify that we hit second watchpoint in main thread. set message "first watchpoint on args\[1\] hit" if { $args_1 > 0 } { pass $message } else { fail $message } # Verify that we hit first watchpoint in child thread. set message "watchpoint on args\[0\] hit in thread" if { $args_0 > 1 } { pass $message } else { fail $message } # Verify that we hit second watchpoint in child thread. set message "watchpoint on args\[1\] hit in thread" if { $args_1 > 1 } { pass $message } else { fail $message } # Verify that all watchpoint hits are accounted for. set message "combination of threaded watchpoints = 30" if { [target_no_stopped_data] } { # See above. If we allow two watchpoints to be hit at once, we # may have more than 30 hits total. set result [expr $args_0 + $args_1 >= 30] } else { set result [expr $args_0 + $args_1 == 30] } if { $result } { pass $message } else { fail $message }